Motor having integral detent
First Claim
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1. A dynamoelectric machine comprising:
- rotor means for providing a magnetic field;
stator means for interacting with said magnetic field of said rotor means;
stator core means mounted about said stator means for providing a continuous magnetic circuit for said magnetic field provided by said rotor means;
said stator core means including at least one stator core element about said stator means, said at least one stator core element traversing a total arcuate distance less than 360 degrees about said stator means thereby leaving at least one circumferential space; and
at least one flux gate, said at least one flux gate including a ferromagnetic portion configured to traverse said circumferential space defined by said at least one stator core element, and said at least one flux gate translatable with respect to said at least one stator core element and said rotor means anddetent means for changing continuity of said magnetic circuit of said stator core means by forming at least one space in said stator core means.
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Accused Products
Abstract
The motor provided includes a unique laminated stator core and a means for changing the continuity of the magnetic circuit. The stator core structure is split into two part-cylindrical elements which define spaces between their opposing ends. Flux gates fill the spaces and provide magnetic circuit continuity. The flux gates are connected to solenoids which can displace the flux gates in and out of the spaces, thereby changing the continuity of the magnetic circuit of the motor. The motor rotor aligns its magnetic axis with the spaces, and will resist substantial imposed torque loads.
49 Citations
14 Claims
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1. A dynamoelectric machine comprising:
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rotor means for providing a magnetic field; stator means for interacting with said magnetic field of said rotor means; stator core means mounted about said stator means for providing a continuous magnetic circuit for said magnetic field provided by said rotor means;
said stator core means including at least one stator core element about said stator means, said at least one stator core element traversing a total arcuate distance less than 360 degrees about said stator means thereby leaving at least one circumferential space; andat least one flux gate, said at least one flux gate including a ferromagnetic portion configured to traverse said circumferential space defined by said at least one stator core element, and said at least one flux gate translatable with respect to said at least one stator core element and said rotor means and detent means for changing continuity of said magnetic circuit of said stator core means by forming at least one space in said stator core means. - View Dependent Claims (2, 3, 4)
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5. A dynamoelectric machine comprising:
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a rotor providing a magnetic field; a stator in magnetic communication with said rotor including a stator core for providing a magnetic circuit for said magnetic field of said rotor; and detent means for changing continuity of said magnetic circuit of said stator core, said detent means comprising; at least one flux gate including a ferromagnetic portion of said stator core, and said flux gate being moveable with respect to said stator core; and actuating means for moving said flux gate so as to form at least one space in said stator core. - View Dependent Claims (6, 7, 8, 9, 10)
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11. A dynamoelectric machines comprising:
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rotor means for providing a magnetic field; a shaft attached to said rotor means; stator means mounted about said rotor means for receiving electrical power and generating a rotating magnetic field to interact with said magnetic field of said rotor means; stator core means mounted about said stator means and said rotor means for providing a magnetic circuit linkage for said magnetic field provided by said rotor means, said stator core means including at least one stator core element mounted about said stator means, said at least one stator core element traversing a total arcuate distance less than 360 degrees about said stator means thereby leaving at least one circumferential space, said stator core means also including at least one flux gate, said at least one flux gate having a ferromagnetic portion configured to in a first position traverse said circumferential space defined by said at least one stator core element, and said at least one flux gate translatable with respect to said at least one stator core element and said rotor means to a second position not traversing said circumferential space; and actuating means for translating the position of said at least one flux gate with respect to said rotor between said first and said second positions.
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12. An actuating system for alternately rotationally driving and fixedly holding a flight control surface on an aircraft, comprising:
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a motor having a rotor generating a magnetic field, a stator mounted about said rotor to receive electrical power and generate a rotating magnetic field to interact with said magnetic field of said rotor, and a stator core mounted about said stator and said rotor to provide a magnetic circuit for said magnetic field provided by said rotor; at least one flux gate in said stator core, said flux gate including a ferromagnetic portion configured to traverse a circumferential space in said stator core, said at least one flux gate translatable with respect to said stator core and said rotor; solenoid means attached to said flux gate for interrupting the said magnetic circuit of said stator core by displacing said flux gate from said space when said stator is not energized; shaft means attached to said rotor and rotationally driven thereby; and a plurality of actuators attached to said aircraft and said flight control surface, said actuators driven by said shaft means.
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13. A stator for an electrical machine comprising:
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windings disposed about a winding support structure; a plurality of generally part-cylindrical stator core elements made of ferromagnetic material and mounted about said windings, each of said stator core elements partially extending around said windings such that a plurality of spaces are located between said stator core elements; and a plurality of flux gate members made of ferromagnetic material, said flux gate members being moveable to substantially fill said spaces to provide a continuous magnetic flux return path.
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14. A stator core for a stator of an electrical machine comprising:
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a plurality of stator core elements made of ferromagnetic material, each of said stator core elements partially extending around said stator such that a plurality of spaces are located between said stator core elements; and a plurality of flux gate members made of ferromagnetic material, said flux gate members being moveable to substantially fill said spaces to provide a continuous magnetic flux return path.
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Specification
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Current AssigneeAlliedsignal Inc. (Honeywell International Inc.)
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Original AssigneeAllied-Signal
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InventorsDenk, Joseph
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Primary Examiner(s)Skudy, R.
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Application NumberUS07/628,273Time in Patent Office963 DaysField of Search30/104, 30/165, 30/42, 30/43, 30/93, 30/45, 30/156, 30/179, 30/216, 30/254, 30/258, 30/259, 30/66, 30/89, 30/23, 30/180, 30/181, 30/215, 30/68 R, 30/103 , 30/106, 30/105, 30/107, 30/109, 29/596, 244/228, 244/75 RUS Class Current310/216.106CPC Class CodesH02K 1/12 Stationary parts of the mag...H02K 1/2726 the rotor consisting of a s...H02K 21/14 with magnets rotating withi...H02K 3/32 Windings characterised by t...H02K 3/47 Air-gap windings, i.e. iron...H02K 5/225 Terminal boxes or connectio...H02K 7/106 with dynamo-electric brakesH02K 9/197 in which the rotor or stato...Y10T 29/49009 Dynamoelectric machine
